Category Archives: Embedded Lessons

Easy Pulse mikro is our new educational pulse sensor in a mikroBus form factor. Like our previous Easy Pulse sensors (Easy Pulse and Easy Pulse Plugin), it is also based on the principle of transmittance photoplethysmography (PPG) applied to a fingertip. The sensor consists of a pair of IR LED and photodiode to detect the cardiovascular pulse signal from the fingertip. The output of the sensor is passed through a necessary instrumentation amplifier to derive a nice and clean analog PPG waveform. The analog output is routed to the AN pin of the mikroBus connector. In this article, I will describe how

Seven segment LED displays are brighter, more attractive and provide a far viewing distance as well as a wider viewing angle as compared to LCD displays. The major drawback of using seven segment LEDs is they are resource-hungry. Our MAX7219 based serial seven segment LED display modules allows you to add 8 digits of seven segment LED displays to your microcontroller project using only 3 I/O pins, and provides full control of all the digit segments including decimal points. You can even cascade two or more of these modules together without sacrificing any extra I/O pin. Since it requires only

In this third part of the 16×32 RGB LED panel hookup guide, we will run some demo sketches with Arduino Uno to display basic text and animation on the 16×32 RGB LED matrix. These demo programs use Adafruit’s RGBMatrixPanel Library are found inside its Example folder. The wiring between the RGB panel and Arduino Uno is discussed in detail in the previous parts of this 3-part tutorial. Click here to read Part 1 of this tutorial Click here to read Part 2 of this tutorial Click here to buy this kit from our US Tindie store Get this RGB panel kit

This is the second part of the 3-part article on how to hookup our 16×32 RGB LED panel kit to Arduino Uno. Click here to read the first part Step 3: Connecting the LED panel to the RGB connector shield The pin arrangement of the 2×8 IDC port (IN) on the back side of the RGB panel are shown below (image taken from Adafruit’s tutorial page). The 12 I/O pins of Arduino that are used to drive these signal lines are listed in the following table.

RGB LED panels are a great way of displaying colorful texts, images, and animation. In this 3-part tutorial, I am going to demonstrate how to hookup our 16×32 RGB LED panel kit to an Arduino Uno board and run some demo sketches. Our 16×32 RGB LED matrix panel kit includes everything you need to connect it to an Arduino Uno board. The kit includes: One 16×32 RGB LED matrix panel One RGB connector shield for Arduino Uno One IDC cable to connect the RGB matrix panel to the RGB shield One power supply connector for the RGB matrix Note that the power supply